Apertured polymeric film web with surfactant mixture additive

ABSTRACT

An apertured film cover for an absorbent article is disclosed. The cover has an additive combination comprising a hydrophilic agent and a lyophilic agent applied thereto. The additive combination provides surprisingly improved fluid transfer across the cover. It can also provide a benefit by reducing frictional forces during the manufacture of a tampon.

CROSS REFERENCE TO RELATED APPLICATIONS

[0001] This invention is related to the following copendingapplications: U.S. Ser. No. 09/343,759, filed Jun. 30, 1999, entitled“Continuous Method of Providing Individual Sheets from a ContinuousWeb”; U.S. Ser. No. 09/345,090, filed Jun. 30, 1999, entitled“Multilayered Apertured Film Wrapping Element for Absorbent Articles”;U.S. Ser. No. 09/345,089, filed Jun. 30, 1999, entitled “HeterogeneousApertured Film Wrapping Element for Absorbent Articles”; U.S. Ser. No.09/343,760, filed Jun. 30, 1999, entitled “Domed Tampon withSurfactant-Treated Cover”; U.S. Ser. No. 09/606,958, filed Jun. 29,2000, entitled “Sealing Roller and Sealing Roller Element, Particularlyfor Producing a Tampon for Feminine Hygiene and Method Therefore”; U.S.Ser. No. 09/607,032, filed Jun. 29, 2000, entitled “Tampon HavingApertured Film Cover Thermobonded to Fibrous Absorbent Structure”; U.S.Ser. No. 09/606,559, filed Jun. 29, 2000, entitled “Tampon for FeminineHygiene and Process and Apparatus for its Production”; and U.S. Ser. No.______, filed on even date herewith, entitled “Apertured Polymeric FilmWeb with Diol/Surfactant Additive” (Atty Docket No. PPC-768).

FIELD OF THE INVENTION

[0002] The present invention relates to an apertured film materialuseful as a body-side liner of an absorbent article. The film materialhas an additive combination applied to its surface. The additivecombination provides improved fluid transfer across the cover, and it iscapable of reducing frictional forces during processing of the absorbentarticle.

BACKGROUND OF THE INVENTION

[0003] There are several types of covers that have been or are currentlyin use for tampons: woven fabrics, nonwoven fabrics, apertured films,reticulated films, polymer nets, and the like. While the patentliterature has suggested that a progression from nonwoven fabrics toapertured films in these covers is desired, this has not yet occurredcommercially. In order to commercialize this desirable tampon, severalissues must be overcome. First, apertured films are generallyhydrophobic in nature, and this can reduce the ease with which bodilyfluids can be accepted into the absorbent structure enclosed within thecovers. Second, apertured films have significantly different frictioncharacteristics than nonwoven fabrics. This can create processingdifficulties, especially in tampon presses in which compressed tamponsare subjected to axial ejection forces, such as disclosed in U.S. Pat.Nos. 3,343,225 (Hochstrasser et al.), 3,348,866 (Etz), 3,422,496 (Wolffet al.), 3,477,102 (Etz) 3,515,138 (Hochstrasser et al.), 3,688,346(Johst et al.), 3,852,847 (Etz), 4,081,884 (Johst et al.), 4,498,218(Friese), and 4,453,296 (Friese), European Pat. App. No. 0 623 333 (KarlRuggli AG), European Pat. App. No. 0 639 363 (Karl Ruggli AG), andEuropean Pat. No. 0 422 660 (Johnson & Johnson GmbH).

[0004] Nonwoven fabric covers may be incorporated into tampons asdescribed in Friese, U.S. Pat. Nos. 4,816,100; 4,836,450; and 4,859,273.These tampons can then be made into tampons as described in the patentsidentified above.

[0005] Apertured film covers have been incorporated into sanitarynapkins to increase the products' ability to hide absorbed bodilyfluids. An example of such an apertured film cover is disclosed inMcNeil-PPC, Inc., EP 0 900 071. This advancement relates to the coronatreatment of an apertured film for application thereon of a water-bornesurfactant. This significant advance in the art, nonetheless requiresnumerous processing steps, and there sanitary napkins produced therefromare not subjected to the high axial friction seen in the tamponmanufacturing processes described above.

[0006] Therefore, what is needed is an apertured film material useful asa body-side liner or cover of an absorbent article, such as a tampon,that is processable in a commercially efficient manner, that providessatisfactory fluid transport into the absorbent article, and that aidsin removal of the tampon from an overwrapper or applicator prior toand/or during use.

SUMMARY OF THE INVENTION

[0007] The present invention relates to a polymeric film material usefulas a body-side liner of an absorbent article. The film materialcomprises an apertured polymeric film web and an additive combinationapplied thereto. The additive combination is formed of about 10 to about90 wt-% of the hydrophilic agent and about 90 to about 10 wt-% of thelyophilic agent. The film material exhibits a sinking basket test timeof less than about 25 seconds.

[0008] The present invention also relates to a catamenial tamponcomprising an absorbent structure, a withdrawal string, and thepolymeric film material described above substantially enclosing theabsorbent structure.

[0009] The invention further relates to a process for the manufacture ofa tampon. The process includes

[0010] a) applying up to about 1 gsm of an additive composition to a webof fluid-impervious plastic material formed into an apertured filmmaterial

[0011] b) separating an individual sheet from the web;

[0012] c) attaching the individual sheet to an absorbent sliver;

[0013] d) forming the absorbent sliver into a tampon blank;

[0014] e) compressing the tampon blank in a press; and

[0015] f) applying an ejection force to the compressed tampon in anaxial direction to eject the tampon from the press.

[0016] In the above process, the additive combination comprises 10 toabout 90 wt-% of the hydrophilic agent and about 90 to about 10 wt-% ofthe lyophilic agent, and the film material provides a sinking baskettest time of less than about 25 seconds. Further, when the tampon blankis formed, the individual sheet substantially encloses it. Thecompressed tampon is substantially cylindrical, and it has an outercover comprising the individual sheet.

BRIEF DESCRIPTION OF THE DRAWING

[0017]FIG. 1 is a perspective view of a tampon having an apertured filmcover according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0018] The present invention relates to polymeric film material usefulas a body-side liner of an absorbent article, and it is described belowin this context.

[0019] As used herein, the term “absorbent article” generally refers todevices used to absorb and contain body exudates, and more specifically,to devices that are placed against, in proximity to, or inside the bodyof the wearer to absorb and contain such body exudates.

[0020] The term includes, without limitation, diapers, catamenial pads,tampons, sanitary napkins, incontinent pads, training pants, and thelike, as well as wipes, bandages, and wound dressings.

[0021] As used herein, the term “apertured film” refers to afluid-impervious plastic material in the form of a resilientthree-dimensional web having first and second surfaces. The firstsurface of the three-dimensional web has a multiplicity of aperturestherein. Preferably, each of the apertures is defined by a multiplicityof intersecting elements interconnected to one another substantially inthe plane of the first surface. Each of the elements exhibits across-section, preferably having a base portion in the plane of thefirst surface and a sidewall joined to each edge of the base portion.The sidewall portions extend generally in the direction of the secondsurface of the three-dimensional web. Further, the intersecting sidewallportions are interconnected to one another intermediate the first andsecond surfaces of the web. The interconnected sidewall portionspreferably terminate substantially concurrently with one another in theplane of the second surface.

[0022] The absorbent article 10 of the present invention comprises anapertured film body-side liner or cover 12, and an absorbent structure14. It may also include a liquid-impervious liner, such as a backsheetof a sanitary napkin. The cover 12 at least partially encloses theabsorbent structure 14 that is generally designed and constructed toabsorb and contain bodily exudates. The absorbent article 10 alsoincludes placement elements, such as an adhesive, and/or removalelements, such as a withdrawal string 16. While the absorbent article 10may be any product as defined above, the following relates to aparticularly preferred embodiment, a catamenial tampon.

[0023] The absorbent structure may be any absorbent means that iscapable of absorbing and/or retaining liquids (e.g., menses and/orurine). The absorbent structure can be manufactured in a wide variety ofsizes and shapes and from a wide variety of liquid-absorbing materials.A representative, non-limiting list of useful materials includescellulosic materials, such as rayon, cotton, wood pulp, creped cellulosewadding, tissue wraps and laminates, peat moss, and chemicallystiffened, modified, or cross-linked cellulosic fibers; syntheticmaterials, such as polyester fibers, polyolefin fibers, absorbent foams,absorbent sponges, superabsorbent polymers, absorbent gelling materials;formed fibers, such as capillary channel fibers and multilimbed fibers;combinations of materials, such as synthetic fibers and wood pulpincluding coformed fibrous structures (e.g., those materials describedin Anderson et al., U.S. Pat. No. 4,100,324); or any equivalent materialor combinations of materials, or mixtures of these.

[0024] The placement elements may be any element or device that isuseful to secure the absorbent article 10 during use. A representative,non-limiting list of useful placement elements includes adhesives, tapetabs, wings, hook-and-loop fasteners, and the like. Preferable placementelements include adhesives.

[0025] The removal elements may be any element or device that is usefulto remove the tampon from the bodily cavity after use. A representative,non-limiting list of useful removal elements includes string, includingspun fibers and monofilament line, tape, and the like. Preferableremoval elements include string.

[0026] The polymeric film material of the present invention is formed ofa web having first surface and second surface having an additivecombination applied thereto. The web may be formed of a homogeneousmonolayer film; a heterogeneous, monolayer film, such as is described inthe commonly assigned, corresponding application U.S. Ser. No.09/345,089, filed Jun. 30, 1999, entitled “Heterogeneous Apertured FilmWrapping Element for Absorbent Articles”, the disclosure of which ishereby incorporated by reference; or it may be formed of a laminatehaving a plurality of layers, such as is described in the commonlyassigned, corresponding application U.S. Ser. No. 09/345,090, filed Jun.30, 1999, entitled “Multilayered Apertured Film Wrapping Element forAbsorbent Articles”, the disclosure of which is hereby incorporated byreference.

[0027] The polymeric film material may be formed of a singlethermoplastic polymeric material, and it may also be formed of at leastone blend of at least two immiscible polymeric materials. Arepresentative, non-limiting list of polymeric materials that may beused in the apertured film includes polyolefins, such as polypropyleneand polyethylene; polyolefin copolymers, such as ethylene-vinyl acetate(“EVA”), ethylene-propylene, ethylene-acrylates, and ethylene-acrylicacid and salts thereof; halogenated polymers; polyesters and polyestercopolymers; polyamides and polyamide copolymers; polyurethanes andpolyurethane copolymers; polystyrenes and polystyrene copolymers; andthe like. Preferred polymeric materials include polyolefins, especiallypolyethylene and polypropylene and ethylene copolymers, especially EVA.

[0028] In a heterogeneous apertured film, either monolayer ormultilayer, the film preferably includes a blend of at least twothermoplastic polymeric components. The first thermoplastic polymericcomponent forms a continuous phase that exhibits a first melting pointtemperature. In order to form the continuous phase, it is preferred thatthe first thermoplastic polymeric component be present at about 45 toabout 95 wt-% of the layer, more preferably about 60 to about 80 wt-% ofthe layer. A dispersed phase comprises a second thermoplastic polymericcomponent that exhibits a second melting point temperature. It ispreferred that the second thermoplastic polymeric component is presentat about 55 to about 5 wt-% of the layer, more preferably about 80 toabout 60 wt-% of the layer. In addition, the second melting pointtemperature is sufficiently less than the first melting pointtemperature to allow the film to be heated to a temperature between thefirst and second melting point temperatures, rendering the secondthermoplastic polymeric component capable of forming an adhesive bond.This bond may be formed between different portions of the cover, or itmay be between the cover and another element of the tampon.

[0029] In addition, other components and further additives can be addedto the polymeric material in an amount that will not hinder obtainingthe object of the present invention, including, without limitation,antioxidants, UV absorbers, lubricants, antiblock and slip agents,plasticizers, nucleating agents, antistatic agents, flame retardants,pigments, dyes, and inorganic or organic fillers.

[0030] The additive combination applied to the cover may serve at leasttwo functions. First, it renders hydrophilic an apertured film thatcomprises generally hydrophobic polymeric materials. This is especiallyhelpful to reduce by-pass leakage of body exudates around the absorbentarticle. Second, it can significantly reduce manufacturing processfriction, such as ejection forces when the tampon is ejected from atampon forming press in an axial direction. Therefore, the additivecombination has properties that improve the affinity of the aperturedfilm for bodily fluids and reduces friction between the tampon (or otherabsorbent article) and manufacturing equipment. The additive combinationcomprises about 10 to about 90 wt-% of the hydrophilic agent and about90 to about 10 wt-% of the lyophilic agent. More preferably, theadditive combination comprises about 25 to about 75 wt-% of thehydrophilic agent and about 75 to about 25 wt-% of the lyophilic agent,and most preferably, the additive combination comprises about 40 toabout 60 wt-% of the hydrophilic agent and about 60 to about 40 wt-% ofthe lyophilic agent.

[0031] As used herein, the term “surfactant” refers to a surface activeagent, i.e., one that modifies the nature of surfaces. Surfactants areoften used as wetting agents, detergents, emulsifiers, dispersingagents, penetrants, and antifoaming agents. Surfactants may be anionic,cationic, nonionic and ampholytic. Preferably, the surfactant used inthe present invention is a nonionic surfactant. Nonionic surfactants aregenerally less irritating of human body tissue, and they are thereforemore acceptable in uses that contact such tissue.

[0032] As used herein, the term “hydrophobic agent” refers to asubstance that readily associates with water, and the term “lyophilicagent” refers to an agent that attracts liquids in a colloid system,describing a colloidal system in which the dispersed phase is a liquidand attracts the dispersing medium. One measure of the relativehydrophilicity and lyophilicity of an agent is the HLB orhydrophile-lyophile balance with a high HLB reflecting a relativelyhydrophilic agent and a low HLB reflecting a relatively lyophilic agent.Preferably the hydrophilic agent has an HLB of at least about 10, morepreferably, it has an HLB of at least about 12, and most preferably, ithas an HLB of at least about 15. However, hydrophilic agents that do nottypically have a measured HLB can also be used. Such hydrophilic agentscan include, without limitation, diols, such as glycols and polyglycols.Conversely, preferred lyophilic agents have an HLB of less than about10, more preferably, less than about 8, and most preferably, less thanabout 5.

[0033] A representative, non-limiting list of useful diols includes C₂₋₈diols and polyglycols, and the like. Preferably, the diol is selectedfrom the group consisting of glycols (C₂ and C₃ diols) and polyglycols.As used in the specification and the claims, the term “polyglycol”refers to a dihydroxy ether formed by dehydration of two or more glycolmolecules. A representative, non-limiting list of useful polyglycolsincludes ethylene glycol, propylene glycol, polyethylene glycols,plypropylene glycols, methoxypolyethylene glycols, polybutylene glycols,or block copolymers of butylene oxide and ethylene oxide. Among theaforementioned polyglycols, polyethylene glycol having a molecularweight of less than about 600, and polypropylene glycol having amolecular weight of less than about 4,000, are preferred. A polyglycolthat is liquid at room temperature is most preferred.

[0034] Preferred nonionic surfactants are ethoxylates, including fattyacid ester ethoxylates, fatty acid ether ethoxylates, and ethoxylatedsugar derivatives.

[0035] One particularly preferred class of ethoxylated fatty acid estersis the class of ethoxylated fatty acid polyolesters, and moreparticularly, ethoxylated fatty acid sorbitan ester. A representative,non-limiting list of useful ethoxylated fatty acid sorbitan estersincludes polyoxyethylene sorbitan laurate (also known as Polysorbate 20(HLB: 16.7) and 21 (HLB: 13.3)), polyoxyethylene sorbitan palmitate(also known as Polysorbate 40 (HLB: 15.6)), polyoxyethylene sorbitanstearate (also known as Polysorbate 60 (HLB: 14.9) and 61 (HLB: 9.6)),polyoxyethylene sorbitan tristearate (also known as Polysorbate 65 (HLB:10.5)), polyoxyethylene sorbitan oleate (also known as Polysorbate 80(HLB: 15.0) and 81 (HLB: 10.0)), and polyoxyethylene sorbitan trioleate(also known as Polysorbate 85 (HLB:11.0)). Among the aforementionedethoxylated fatty acid sorbitan esters, polyoxyethylene-20-sorbitanmonolaurate is most preferred.

[0036] One particularly preferred class of ethoxylated fatty acid ethersis the class of polyoxyethylene alkyl ether. A representative,non-limiting list of useful polyoxyethylene alkyl ethers includespolyoxyethylene lauryl ether, polyoxyethylene stearyl ether (also knownas Steareth-2, Steareth-10 (HLB: 12.4), and the like), polyoxyethylenecetyl ether (also known as Ceteth-2, Ceteth-10 (HLB: 12.9), and thelike), and polyoxyethylene oleyl ether (also known as Oleth-2 (HLB:12.4), Oleth-10, and the like). Among the aforementioned polyoxyethylenealkyl ethers, polyoxyethylene stearyl ether is most preferred.

[0037] One particularly preferred class of fatty acid esters is theclass of sorbitan fatty acid esters. A representative, non-limiting listof useful sorbitan fatty acid esters includes sorbitan monooleate (HLB:4.3), sorbitan monostearate (HLB: 4.7), sorbitan monopalmitate (HLB:6.7), sorbitan monolaurate (HLB: 8.6), sorbitan tristearate (HLB: 2.1),and sorbitan trioleate (HLB: 1.8). Among the aforementioned sorbitanfatty acid esters, sorbitan monooleate is most preferred.

[0038] One particularly preferred class of ethoxylated sugar derivativesis the class of methyl glucose derivatives. A representative,non-limiting list of useful methyl glucose derivatives includes methylgluceth-10, methyl glucose-20, methyl glucose-20 distearate, methylglucose dioleate (HLB: 5), and methyl glucose sesquistearate (HLB: 6),PEG-120 methyl glucose dioleate, and PEG-20 methyl glucosesesquistearate.

[0039] It is to be understood that the components of the additivecombinations used in the tampon and in its manufacture as describedherein are commercially available. Examples thereof are marketed underthe registered trademarks “SPAN”, “TWEEN”, and “BRIJ” of UNIQEMA, adivision of ICI, Wilmington, Del., USA and under the registeredtrademarks “GLUCAM”, “GLUCATE”, and “GLUCAMATE” of Amerchol Corporation,Edison, N.J., USA.

[0040] The additive combination is, preferably, applied to the cover inan amount of up to about 1 g/m² (“gsm”) More preferably, the coatingweight is about 0.05 to about 0.8 gsm, and most preferably, it isapplied at a coating weight of about 0.2 to about 0.5 gsm. If too littleadditive combination is applied, the product will not have adequatefluid transfer across the polymeric film material, and the cover mayalso be damaged in the manufacturing process, especially during itsaxial ejection from the tampon press. Too much additive combination isuneconomical, and it may be detectable by the consumer. In addition, iftoo much is applied, the excess tends to build up on the manufacturingequipment, and extraneous material (such as dirt, fibers, and the like)can become adhered to the machine. This can also result in poor controlof the cover material, misplacement of the cover, and loose ends of thecover after cover attachment.

[0041] The add-on amount of the additive combination described aboveshould be sufficient to reduce process friction, such as tampon pressejection forces, sufficiently to prevent damage to the product duringmanufacture. Damage to the product includes destroying the product dueto press jams in which the product stops the machine. Damage to theproduct also includes distortion of the cover due to friction betweenthe cover and manufacturing equipment. This may be viewed as “shingling”of the product. Shingling of the product occurs when pleatsperpendicular to the tampon's longitudinal axis are formed. This maytake the appearance of a series of rings around the products due tothese circumferential pleats. Preferably, the nonionic surfactant isapplied to the cover in an amount sufficient to reduce tampon pressejection forces to less than about 1100 N. More preferably, the tamponpress ejection forces are reduced to less than about 1000 N.

[0042] Again, the absorbent structure can be manufactured in a widevariety of sizes and shapes and from a wide variety of liquid-absorbingmaterials. An example of the formation of the absorbent structure isdisclosed in Etz, U.S. Pat. No. 3,477,102, the disclosure of which isherein incorporated by reference.

[0043] The additive combination may be applied to the cover material inany manner that ensures sufficiently uniform coating. Many such methodsare known to those of ordinary skill in the art. A representative,non-limiting list of useful methods includes spraying, extruding, slotcoating, brushing, transfer coating, and the like. An individual sheetof the apertured film cover material may be applied to an absorbentstructure, such as an absorbent sliver, in the manufacture of a tamponusing a cut-and-place unit to cut the material from the slit roll and toplace it on the absorbent structure. Another method of applying thecover is generally described in Friese, U.S. Pat. No. 4,816,100, thedisclosure of which is herein incorporated by reference. While thisdescribes the use of a nonwoven cover to a tampon, improvementsnecessary to achieve this are described in the commonly-assigned,copending application, U.S. Ser. No. 09/343,759, filed Jun. 30, 1999,entitled “Continuous Method of Providing Individual Sheets from aContinuous Web”, the disclosure of which is herein incorporated byreference. This copending application discloses a method to achieve thetotal separation of a section of material comprises the following steps:severing a supply material in a plurality of discrete regions along atransverse axis, scoring the material residing between the severedregions along the same transverse axis, and then applying a forcesufficient to fracture the scored regions, thereby separating thesection of material from its supply. The cover and absorbent can then berolled to form a covered tampon blank in which the individual sheet ofthe cover material substantially encloses the tampon blank.

[0044] Prior to applying the additive combination to the cover, thecomponents of thereof can be combined in any manner useful to achievethe preferred combination. For example, the components can be combinedin a vessel and stirred until a uniform mixture is achieved that can berecognized by a homogeneous appearance without phase separation. In somecombination, the application of moderate amounts of heat will speed themixing process.

[0045] Generally, it will be beneficial to add the predominant componentinto the mixing vessel first. However, the components can also be addedsubstantially simultaneously, or even in reverse order.

[0046] The covered tampon blank can then be formed into a tampon using atampon press. One method is described in Wolff et al., U.S. Pat. No.3,422,496, the disclosure of which is herein incorporated by reference.This method includes expulsion of a compressed tampon out of a tamponpress by means of a ram. This expulsion is axial or along the directionof the press axis, and it is readily understood that expulsion forcescan be quite high due to frictional forces between the compressed tamponand the jaw members that formed the compressed tampon. While it may bepossible to reduce the frictional forces by withdrawing the jaw membersslightly away from the press axis, the radial expulsion of thecompressed tampon still provides a significantly high expulsion force.

[0047] Another method is described in Friese et al. U.S. patent Ser. No.07/596,454, filed Oct. 12, 1990, and EP-B-0 422 660, the disclosures ofwhich are herein incorporated by reference. The jaw members of this typeof tampon press are modified in comparison to that those of Wolff et al.The jaw members of Friese et al. incorporate press cutters or fingersthat project into the compressed tampon. Thus, this process can resultin even higher expulsion forces than the process of Wolff et al.

[0048] The present invention will be further understood by reference tothe following specific Examples which are illustrative of thecomposition, form and method of producing the present invention. It isto be understood that many variations of composition, form and method ofproducing this would be apparent to those skilled in the art. Thefollowing Examples, wherein parts and percentages are by weight unlessotherwise indicated, are only illustrative.

EXAMPLES Example 1

[0049] The effectiveness of coating materials for fluid transfer acrossthe apertured polymeric film web was measured using the “Sinking BasketTest”, described below.

[0050] Apertured polymeric films prepared by coextruding two polymericblends through multiple extruders. The two melt streams entered a feedblock that split the outside layer polymer blend into two streams,leaving the intermediate layer intact. The outer layers thus enclosed or“sandwiched” the intermediate layer to produce an A-B-A film with theproportions of polymer indicated in Table 1, below. The A-layers areevenly divided, so a 50:50 proportion of A:B would actually provide a25:50:25 distribution when both A-layers are considered. TABLE 1A-layers B-Layers Film (wt-%) (wt-%) Film 1 50 50 Film 2 86 14 Film 3 8911

[0051] The A-layer composition is indicated in Table 2, below, in whichLDPE is low density polyethylene, LLDPE is linear low density PE, HDPEis high density polyethylene, Metallocene is metallocene-catalyzedpolyethylene, and TiO₂ concentrate is a pigment concentrate comprisingabout 50-70 wt-% TiO₂ dispersed in a polyolefin, such as polyethylene.TABLE 2 TiO₂ LDPE LLDPE HDPE Metallocene Concentrate Film (wt-%) (wt-%)(wt-%) (wt-%) (wt-%) Film 1 70 30 Film 2 49 30 15 6 Film 3 54 15 25 6

[0052] The B-layer composition is indicated in Table 3, below, in whichHDPE and LDPE are as above for the A-layer and PP is polypropylene:TABLE 3 PR LDPE HDPE Film (wt-%) (wt-%) (wt-%) Film 1 30 70 Film 2 100Film 3 100

[0053] Film 1 was provided by Isofilme, Sao Paulo, Brazil, and Films 2and 3 were provided by Guial, Quinceux, France.

[0054] The A-B-A film was then apertured by applying jets of hot air andvacuum at about 330° C. while being supported by a cylindrical formingsurface substantially as described in James et al., U.S. Pat. No.5,916,462, and Zimmerli, U.S. Pat. No. 3,054,148. The differencesbetween the disclosures therein and the process used herein would not beexpected to change the results described hereinbelow. The resultingapertured film had a repeating pattern of substantially uniform, roundapertures, an open area of about 23-25%, and an equivalent hydraulicdiameter (“EHD”), as measured by the formula EHD=4 * area/perimeter, ofabout 23-25 mils (0.58−0.64 mm).

[0055] Open area may be determined by using image analysis to measurethe relative percentages of apertured and unapertured, or land, areas.Essentially image analysis converts an optical image from a lightmicroscope into an electronic signal suitable for processing. Anelectronic beam scans the image, line-by-line. As each line is scanned,an output signal changes according to illumination. White areas producea relatively high voltage and black areas a relatively low voltage. Animage of the apertured formed film is produced and, in that image, theholes are white, while the solid areas of thermoplastic material are atvarious levels of gray. The more dense the solid area, the darker thegray area produced. Each line of the image that is measured is dividedinto sampling points or pixels. The following equipment can be used tocarry out the analysis described above: a Quantimet Q520 Image Analyzer(with v. 5.02B software and Grey Store Option), sold by LEICA/CambridgeInstruments Ltd., in conjunction with an Olympus SZH Microscope with atransmitted light base, a plan 1.0x objective, and a 2.50x eyepiece. Theimage can be produced with a DAGE MTI CCD72 video camera.

[0056] A representative piece of each material to be analyzed is placedon the microscope stage and sharply imaged on the video screen at amicroscope zoom setting of 10x. The open area is determined from fieldmeasurements of representative areas. The Quantimet program outputreports mean value and standard deviation for each sample.

[0057] EHD was measured according to the procedure disclosed in Turi etal., U.S. Pat. No. 5,567,376. However, the image was acquired using aScanJet 4c scanner from Hewlett-Packard, Palo Alto, Calif., USA, andanalyzed using Image-Pro software from Media Cybernetics, SilverSprings, Md., USA. These changes do not significantly alter any results.

[0058] The apertured film was coated with the test materials by spraycoating with two spray nozzles. The coating weight is determined by NMRaccording to the following procedure:

[0059] Test equipment and reagents:

[0060] Oxford QP+20 NMR analyzer

[0061] Test tubes 18 mm ID×180 mm, marked at 1.5 inches from bottom(Oxford #QP1 001)

[0062] Analytical balance (±0.2 mg accuracy)

[0063] Sample preparation

[0064] Samples having a weight of approximately 2 g.

[0065] Test performance

[0066] 1. Calibrate NMR with known amount of film coatings/weights(approximately 24 samples) and establish a calibration curve.

[0067] 2. Weigh a film (approx. 2 g) with unknown amount of knowncoating, place the film into a test tube and pack with glass tube belowthe 1.5 inch mark, being careful to avoid excessive sample handling.

[0068] 3. Place test tube into the NMR analyzer.

[0069] 4. Enter the sample weight.

[0070] 5. Report results as coating wt-% shown on the NMR analyzerdisplay.

[0071] The Sinking Basket Test was performed on these apertured filmsamples as follows:

Sinking Basket Test Procedure

[0072] Test equipment and reagents:

[0073] Precision balance, accurate to 0.01 g

[0074] Stop watch

[0075] Beaker (diameter 10-13 cm, height 20 cm)

[0076] Water of about 20° C.

[0077] Dry cylindrical baskets consisting of copper wire with a diameterof 0.4 mm. These baskets have a height of 8.0 cm and a diameter of 5.0cm. The mesh is 1.5 to 2.0 cm and the mass is 2.7±0.3 g.

[0078] Sample preparation

[0079] At least 3 cover material samples of exactly 5.0 ±0.1 g areprepared.

[0080] Test performance

[0081] The basket is weighed to the nearest centigram. 5 g of the covermaterial (pieces of 1.0-1.8 m in length; slit width ˜50 mm) is placedloosely (randomly stuffing) in the basket. Then the basket is weighed tothe nearest centigram. A beaker with a diameter of 10-13 cm is filledwith water of about 20° C. to a height of 15-18 cm. The filled basket isheld horizontally and dropped from a height of about 10 mm onto thewater. The time which the basket takes to sink below the water surfaceis measured with a stop watch. The sinking time is calculated as theaverage of the results of the three or more tests. (Source: EuropeanPharmocopoeia, Europäisches Arzneibuch, 3. Edition 1997, DeutscherApotheker Verlag Stuttgart, page 1808). The materials and the basketsink time are reported in Table 4, below. TABLE 4 Sinking Std. Add-ontime Dev. Cover Coating (%) (sec) (sec) Film 1 None (Control) N/A >>180Film 2 None (Control) N/A >>180 Film 3 None (Control) N/A >>180 Film 1Tween 20 1.0 36.0 / Film 1 Span 80 1.0 45.5 / Film 1 PEG 400 1.0 >>180Film 1 PEG 600 1.0 >>180 Film 1 Span 80 1.0 45.5 / Film 2 Span 80 2.039.2 7.6 Film 2 9% PEG 400/81% Span 80 1.1 20.8 4.5 Film 2 23% PEG400/77% Span 80 1.3 3.1 1.0 Film 2 25% PEG 400/75% Span 80 1.0 2.4 0.3Film 2 33% PEG 400/67% Span 80 1.5 2.1 0.2 Film 3 50% PEG 400/50% Span80 1.0 1.9 0.1 Film 3 75% PEG 400/25% Span 80 1.6 1.6 0.0 Film 3 90% PEG400/10% Span 80 1.7 2.5 0.5 Film 3 25% Propylene Glycol/75% 1.6 10.9 0.8Span 80 Film 3 50% Propylene Glycol/50% 1.6 5.2 0.4 Span 80 Film 3 75%Propylene Glycol/25% 1.4 8.8 0.7 Span 80 Film 3 50% Span 80/50% Tween 201.4 4.0 0.2

[0082] The trial illustrates that additives formed of mixtures of ahydrophilic agent and a lyophilic agent provide significantly improvedsinking basket performance than additives formed of the individualcomponents alone. Such mixtures provide a sinking basket time of lessthan 25 seconds.

[0083] The specification and embodiments above are presented to aid inthe complete and non-limiting understanding of the invention disclosedherein. Since many variations and embodiments of the invention can bemade without departing from its spirit and scope, the invention residesin the claims hereinafter appended.

What is claimed is:
 1. A polymeric film material useful as a body-sideliner of an absorbent article, the film material comprising: a) anapertured polymeric film web having disposed thereon; and b) an additivecombination comprising: i) about 10 to about 90 wt-% of a hydrophilicagent; and ii) about 90 to about 10 wt-% of a lyophilic agent; whereinthe film material exhibits a sinking basket time of less than about 25seconds.
 2. The material of claim 1 wherein the material comprises up toabout 1 gsm of the additive.
 3. The material of claim 2 wherein thematerial comprises about 0.05 to about 0.8 gsm of the additive.
 4. Thematerial of claim 3 wherein the material comprises about 0.2 to about0.5 gsm of the additive.
 5. The material of claim 1 wherein the additivecomprises about 25 to about 75 wt-% of the hydrophilic agent and about75 to about 25 wt-% of the lyophilic agent.
 6. The material of claim 5wherein the additive comprises about 40 to about 60 wt-% of thehydrophilic agent and about 60 to about 40 wt-% of the lyophilic agent.7. The material of claim 1 wherein the hydrophilic agent comprises apolyglycol.
 8. The material of claim 7 wherein the polyglycol isselected from the group consisting of polyethylene glycol, polypropyleneglycol, polybutylene glycol, a block copolymer of butylene oxide andethylene oxide, and combinations thereof.
 9. The material of claim 8wherein the hydrophilic agent comprises polyethylene glycol.
 10. Thematerial of claim 1 wherein the hydrophilic agent comprises a surfactanthaving an HLB value of greater than about
 10. 11. The material of claim10 wherein hydrophilic agent comprises a nonionic surfactant having anHLB value of greater than about
 10. 12. The material of claim 11 whereinthe hydrophilic agent comprises nonionic surfactant having an HLB valueof greater than about 10 that is selected from the group consisting ofpolyoxyethylene polyol fatty acid esters, higher ethoxylatepolyoxyethylene alcohols, polyoxyethylene fatty acid ethers, andcombinations thereof.
 13. The material of claim 12 wherein thepolyoxyethylene polyol fatty acid esters is a polyoxyethylene sorbitanfatty acid ester.
 14. The material of claim 1 wherein the lyophilicagent comprises a surfactant having an HLB value of less than about 10.15. The material of claim 14 wherein the lyophilic agent comprises anonionic surfactant having an HLB value of less than about
 10. 16. Thematerial of claim 15 wherein the lyophilic agent comprises a nonionicsurfactant having an HLB value of less than about
 8. 17. The material ofclaim 16 wherein the wherein the lyophilic agent comprises a nonionicsurfactant having an HLB value of less than about
 5. 18. The material ofclaim 15 wherein the lyophilic agent comprises a nonionic surfactantselected from the group consisting of sorbitan fatty acid esters, lowerethoxylate polyoxyethylene alcohols, methyl glucose derivatives, andcombinations thereof.
 19. A catamenial tampon comprising an absorbentstructure substantially enclosed within a polymeric film materialdisposed on at least one body-facing of an absorbent article and awithdrawal string, the film material comprising: a) an aperturedpolymeric film web; and b) an additive combination comprising: i) about10 to about 90 wt-% of a hydrophilic agent; and ii) about 90 to about 10wt-% of a lyophilic agent; wherein the film material provides a sinkingbasket test time of less than about 25 seconds.
 20. The tampon of claim19 wherein the material comprises up to about 1 gsm of the additive. 21.The tampon of claim 20 wherein the material comprises about 0.05 toabout 0.8 gsm of the additive.
 22. The tampon of claim 21 wherein thematerial comprises about 0.2 to about 0.5 gsm of the additive.
 23. Thetampon of claim 19 wherein the additive comprises about 25 to about 75wt-% of the hydrophilic agent and about 75 to about 25 wt-% of thelyophilic agent.
 24. The tampon of claim 23 wherein the additivecomprises about 40 to about 60 wt-% of the hydrophilic agent and about60 to about 40 wt-% of the lyophilic agent.
 25. The tampon of claim 19wherein the hydrophilic agent is a polyglycol.
 26. The tampon of claim25 wherein the polyglycol is selected from the group consisting ofpolyethylene glycol, polypropylene glycol, polybutylene glycol, a blockcopolymer of butylene oxide and ethylene oxide, and combinationsthereof.
 27. The tampon of claim 26 wherein the additive is polyethyleneglycol.
 28. The tampon of claim 19 wherein the hydrophilic agentcomprises a surfactant having an HLB value of greater than about
 10. 29.The tampon of claim 27 wherein hydrophilic agent comprises a nonionicsurfactant having an HLB value of greater than about
 10. 30. The tamponof claim 28 wherein the hydrophilic agent comprises nonionic surfactanthaving an HLB value of greater than about 10 that is selected from thegroup consisting of polyoxyethylene polyol fatty acid esters, higherethoxylate polyoxyethylene alcohols, polyoxyethylene fatty acid ethers,and combinations thereof.
 31. The tampon of claim 19 wherein thelyophilic agent comprises a surfactant having an HLB value of less thanabout
 10. 32. The tampon of claim 31 wherein the lyophilic agentcomprises a nonionic surfactant having an HLB value of less than about10.
 33. The tampon of claim 32 wherein the lyophilic agent comprises anonionic surfactant having an HLB value of less than about
 8. 34. Thetampon of claim 33 wherein the wherein the lyophilic agent comprises anonionic surfactant having an HLB value of less than about
 5. 35. Thetampon of claim 32 wherein the lyophilic agent comprises a nonionicsurfactant selected from the group consisting of sorbitan fatty acidesters, lower ethoxylate polyoxyethylene alcohols, methyl glucosederivatives, and combinations thereof.
 36. A process for the manufactureof a tampon comprising: a) applying up to about 1 gsm of an additivecomposition to a web of fluid-impervious plastic material formed into anapertured film material, the additive combination comprising: i) about10 to about 90 wt-% of a hydrophilic agent; and ii) about 90 to about 10wt-% of a lyophilic agent; wherein the film material provides a sinkingbasket test time of less than about 25 seconds; b) separating anindividual sheet from the web; c) attaching the individual sheet to anabsorbent sliver; d) forming the absorbent sliver into a tampon blankwherein the individual sheet substantially encloses the tampon blank; e)compressing the tampon blank in a press to form a substantiallycylindrical, compressed tampon having a cover comprising the individualsheet; and f) applying an ejection force to the compressed tampon in anaxial direction to eject the tampon from the press.
 37. The process ofclaim 36 comprising coating the web of fluid-impervious plastic materialwith about 0.05 to about 0.8 gsm of the additive.
 38. The process ofclaim 37 comprising coating the web of fluid-impervious plastic materialwith about 0.2 to about 0.5 gsm of the additive.
 39. The process ofclaim 36 wherein the additive comprises about 25 to about 75 wt-% of thehydrophilic agent and about 75 to about 25 wt-% of the lyophilic agent.40. The process of claim 38 wherein the additive comprises about 40 toabout 60 wt-% of the hydrophilic agent and about 60 to about 40 wt-% ofthe lyophilic agent.
 41. The tampon of claim 30 wherein thepolyoxyethylene polyol fatty acid esters is a polyoxyethylene sorbitanfatty acid ester.